Journal Articles Nuclear Fusion Year : 2023

A self-sustaining mechanism for Internal Transport Barrier formation in HL-2A tokamak plasmas

Abstract

The formation of Internal Transport Barrier (ITB) is studied in HL-2A plasmas by means of nonlinear gyrokinetic simulations. A new paradigm for the ITB formation is proposed in which different physics mechanisms play a different role depending on the ITB formation stage. In the early stage, fast ions, introduced by Neutral Beam Injection (NBI) ion system, are found to stabilize the thermal-ion-driven instability by dilution, thus reducing the ion heat fluxes and finally triggering the ITB. Such dilution effects, however, play a minor role after the ITB is triggered as electromagnetic effects are dominant in the presence of established high pressure gradients. We define the concept of ITB self-sustainment, as the low turbulence levels found within the fully formed ITB are consequences of large scale zonal flows, which in turn are fed by a non-linear interplay with large scale high frequency electromagnetic perturbations destabilized by the ITB itself.
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cea-04823534 , version 1 (06-12-2024)

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W H Lin, J Garcia, J Q Li, S Mazzi, Z J Li, et al.. A self-sustaining mechanism for Internal Transport Barrier formation in HL-2A tokamak plasmas. Nuclear Fusion, 2023, 63, pp.126048. ⟨10.1088/1741-4326/ad0508⟩. ⟨cea-04823534⟩
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